RU2252423C1 - Animals underskin fat electro-mechanical thickness meter (fat meter) - Google Patents

Abstract

FIELD: measurement technology.

SUBSTANCE: operation of device is based upon determining boundary of media with different electric conductivities. Fat meter can be used for measuring thickness of underskin fat of living animals. Device has skin punch housed in case, measuring probe made in form of hollow needle provided with conductor disposed inside the needle, and electronic circuit provided with autonomous heat source. Needle passes through rest which is connected tightly with comb onto which comb the indication scale is disposed for indicating depth of punch. Indication pointer and guides for displacing comb are made on the top of case. Mechanism of introduction of spring-loaded punch is made in form of eccentric which interacts with case. Release lever for fixing comb at "fat-muscle" boundary is made in form of rocker.

EFFECT: simplified design; improved comfort at exploitation; ability of working in semi-automatic mode.

8 cl, 4 dwg

Description

The invention relates to the field of measuring physical quantities, in particular for determining the interface between substances with different electrical conductivities, and can be used mainly in livestock for the intravital measurement of the thickness of the subcutaneous fat of animals, for example fat, in assessing the productivity of pigs by meat categories and breeding by the quality of the offspring.

A linometer is known, consisting of a measuring probe, inside of which there is one electric pole, and the opposite - outside. An autonomous current source is mounted in the handle of the linometer. The linometer is equipped with a movable disk with a probe moving in it and a signal device when the probe enters the muscle meat. With the penetration of the probe into the animal and when it passes through the fat layer, the arrow on the scale deviates slightly, and the movable disk moves back, and when the meat is reached, a strong deflection of the arrow is observed, the probe is fixed and the thickness of the fat is determined from the reference scale (Prince V. Ritz. Breeding , feeding and keeping pigs. Translation from German under the editorship of Savich I.A. - M., 1968, p. 424-443). A disadvantage of the known thickness gauge is the presence in it of an electrically made scale with an arrow indicating the thickness of the subcutaneous fat and the absence of a movable punch, the latter requiring a painful breakdown of the skin by hand.

A known device for the in vivo determination of the thickness of the fat in pigs, consisting of a needle with an insulated conductor inside it, autonomous electric power, a skin punch, a movable stop with a moving needle and a signal device when crossing the fat-muscle interface. The value of the measured thickness of the bacon is indicated on the scale of the electrical appliance (J. Pig Production. - M.: Kolos Publishing House, No. 12, December 1971, pp. 29-30). A disadvantage of the known thickness gauge is the presence of headphones as a signal device requiring a strong electric current. When crossing the “fat-muscle” interface, a sound signal appears in the head phones of the device, at the moment of which the measured thickness of the fat is marked and the measuring needle is manually fixed with a clamping screw. Another disadvantage is the platoon of the punch by pulling the rod by the ring.

Known digital electric thickness gauge bacon thickness "Kharkov-2", consisting of a measuring needle, mechanical and electrical parts with an autonomous current source. The mechanical part includes the mechanisms of platoon, descent and fixation of the skin punch and automatic feeding of the measuring needle into the body of the animal. The electronic part includes a generator of sinusoidal oscillations on transistors, a voltage amplifier, a measuring bridge, the diagonal of which includes a measuring needle, a power amplifier, an amplifying signal coming from the measuring bridge when unbalanced, a time relay that turns off the micromotor when the needle reaches the muscle boundary, and an electric meter digital readout of fat thickness testimony (J. Pig Production. - M.: Kolos Publishing House, No. 11, November, 1972, - p. 35). This gauge thickness bacon adopted as a prototype.

A disadvantage of the known thickness gauge is the platoon of the punch by pulling the rod with the handle, as well as the complexity and cumbersomeness of the thickness gauge due to the presence in it of complex mechanisms for automatically feeding the measuring needle from the electric motor, which, due to the large weight, complicates its use and operation.

The main task to be solved by the claimed technical solution is to simplify the design of a thickness gauge using the principle of different electrical conductivity of fat and muscle meat, increase the convenience in its use and work in a semi-automatic mode with light indication when the measuring layer reaches the muscle meat layer.

The technical result achieved by the implementation of the claimed invention is the compactness of the thickness gauge of subcutaneous fat of animals, controlled by one button, which performs the function of automatically lowering the skin punch with the simultaneous inclusion of an electronic circuit with light indication, releasing the stop with a measuring scale for manually entering the measuring probe into the animal’s body and fixing combs with a reference scale when the probe reaches the “fat-muscle” interface.

The specified technical result is achieved by the fact that in the known electromechanical thickness gauge of the subcutaneous fat of animals, for example, lancemeter, which contains a skin punch, consisting of a rod rigidly connected at one end to a measuring probe made of a hollow needle with an insulated electrical conductor, the last one end located at the level of the free end of the needle, the platoon mechanism for the thickness of the skin and the lever for lowering the punch, the emphasis in the body of the animal with a probe moving in it, the mechanism of fixation the probe insertion depth at the “muscle-fat” interface and an electronic circuit with an autonomous current source connected, on the one hand, to the probe, and on the other, to the signal device switch when the probe reaches the animal’s muscle tissue, according to the proposed technical solution:

the punch cocking mechanism is made in the form of an eccentric mounted on the end of the rod opposite the probe and interacting with the thickness gauge body, while the punch rod is spring-loaded from the side of the body opposite the eccentric, and the probe insertion depth fixing mechanism is made in the form of a comb rigidly connected with the stop at the level of the probe end at the cocked position of the punch, the grooves of which interact with the trigger, placed in the slot of the body wall, and on the comb there is a reference scale for the probe insertion depth in t eating an animal, for which purpose a reference indicator and guides for moving the comb are made on the body, and the signal device is made in the form of a light source located on the thickness gauge body;

the eccentric is installed in the groove of the plug, made at the end of the core of the punch, with emphasis in the jumper of the housing placed in the groove of the plug;

a transverse radial recess is made on the punch rod, in which a drain lever is placed that interacts with the grooves of the comb, while fixing the depth of insertion of the probe into the body of the animal;

a transverse groove is made on the punch rod, with which the drain lever interacts when the punch is cocked and lowered;

the release lever is made in the form of a rocker arm, one end of which is spring-loaded relative to the body, and the other interacts with the grooves of the comb and the core of the punch;

the case consists of a box and a lid interconnected on one side by hinges, and on the other side along the edges of the lid and the box there are made guides in the form of grooves for moving the comb;

the comb is connected to the housing by a spring returning the stop to its original position;

the electronic circuit breaker kinematically interacts with the descent lever of the skin punch.

Figure 1 shows a diagram of an electromechanical thickness gauge; figure 2 is the same, a view along arrow A in figure 1; figure 3 is the same, a section bB in figure 1; figure 4 is the same, a section bb in figure 1.

The electromechanical thickness gauge of the subcutaneous fat of animals consists of a housing 1 with a cover 2, pivotally connected to each other by means of axes 3, a skin punch, consisting of a rod 4, rigidly connected at one end with a measuring probe made of a hollow needle 5 with an insulated electric wire 6, which one end is located at the level of the free end of the needle 5, and the other is connected to the electronic circuit 7 (not shown conventionally) in the groove 8 of the rod 4, the other end is connected to the mechanism of cocking the punch to the skin thickness, nennogo a cam 9 mounted on the end of rod 4 in a groove 10 on the fork shaft 11 in abutment with the dam 12 formed on the casing 1 and the plug placed in the groove 10 (Figure 1). On the opposite side of the eccentric 9 of the housing 1, a compression spring 13 is located on the rod 4, with emphasis on one side of the housing wall and, on the other, in the thrust ring 14 mounted on the rod 4. A comb 15 is movably mounted on the opposite side of the hinge joint of the housing 1 and the cover 2 rigidly connected on one side with a stop 16 at the level of the end face of the probe needle 5 when the punch is cocked by an eccentric 9 and on the other with a stopper 17 of the comb 15, on which a scale 18 of the depth of reference of the probe into the animal’s body is made. The comb 15 is connected to the housing 1 by a tension spring 19. In the housing 1 there are batteries 20 of an autonomous current source, the poles 21 and 22 of which are connected to an electronic circuit 7 connected to an electric light source 23 located on the housing 1 and a switch 24. The housing is located the release lever 25, made in the form of a rocker arm, which is mounted on the axis 26, at one end of which a push button 27 is installed, and the opposite end interacts with the grooves 28 of the comb 15 (Figure 2). On the edges of the housing 1 and the cover 2, guides 29 are made in the form of grooves for moving the comb 15 with a scale 18, on one of the guides 29 there is a pointer 30 for counting the depth of penetration of the probe needle 5 into the body of the animal. The release lever 25 is spring-loaded from the side of the push button 27 by the spring 31 relative to the housing 1. A radius recess 32 is made on the rod 4, in which the drain lever 25 is placed, which interacts with the grooves 28 of the comb 15 to fix the depth of the fat-muscle interface, and the groove 33 interacting with the grooves 28 of the comb 15 when platoon punch (Figure 3). The switch 24 of the electronic circuit 7 kinematically interacts with the lever 25 of the descent of the skin punch (Figure 4).

Electromechanical thickness gauge of subcutaneous fat of animals works as follows. Before measuring the depth of the fat of the animal, press the button 27, releasing the groove 28 of the comb 15 from the release lever 25, and the latter is displaced in the direction of the housing 1, releasing the needle 5 from the stop 16, and the needle 5 is disinfected, after which the stop 16 is released and under the action of the spring 19 set to its original position. To perform the measurement by turning the eccentric 9, a punch is cocked to the thickness of the animal’s skin, in which the lever 25 slides along the radius recess 32 and, under the action of the spring 31, enters the groove 33, while the end of the needle 5 is set at the stop 16. The animal’s skin is disinfected at the measurement site, the stop 16 is pressed against the skin and pressing the button 27 the stop punch is lowered, at which the lever 25 leaves the groove 33 and the pin 4 of the punch is displaced by the compression spring 13 in the direction of the stop 16, the lever 25 is lowered into the radius recess 32, and the needle 5 mg pierces the skin of the animal in a novel and painless manner. Along with this, the punch descent lever 25 presses the switch 24, which turns on the electronic circuit 7, connecting the two-electrode needle 5 of the probe with the poles 21 and 22 of the batteries 20 of the autonomous current source, then with the force of the hand they introduce the needle 5 into the body of the animal. Upon reaching the muscle meat with increased electrical conductivity, the meat electrically connects the cannula 5 to the inside of the insulated wire 6, as a result, the electronic circuit 7 turns on the light source 23, at the same time the button 27 of the release lever 25 is released, which, under the action of the spring 31, rotates around the axis 26 and is installed in the groove 28 of the comb 15 and placed in the radius recess 32, thereby the drain lever 25 with the comb 15 fix the depth of the needle 5 into the body of the animal, and the thickness of the subcutaneous fat votnogo. At the end, the button 27 is pressed, the lever 25 is withdrawn from the groove 28, freeing the comb 15, and under the action of the tension spring 19 returns to its original position until the limiter 17 of the comb 15 contacts the housing 1.

Design documentation has been developed for the proposed electromechanical thickness gauge of the subcutaneous fat of animals, a prototype of the lance meter has been manufactured, which is very portable, fits in the palm of a person and is controlled by a single button. The shpikomer is tested in practice, recognized at the livestock section of the scientific and technical council of the Ministry of Agriculture and Food of the Republic of Tatarstan as original and recommended for use in livestock.

Claims (8)

1. The electromechanical thickness gauge of the subcutaneous fat of animals, for example, a lance meter, comprising a skin puncturer, consisting of a rod rigidly connected at one end to a measuring probe made of a hollow needle with an electrical conductor insulated inside, the last one at the level of the free end of the needle, input mechanism for the thickness of the skin and the lever for lowering the piercer, an emphasis on the animal’s body with the probe moving in it, a mechanism for fixing the depth of insertion of the probe at the fat-muscle interface and the electron a cartridge circuit with an autonomous current source connected on one side to the probe and, on the other, to the switch of the signal device when the probe reaches the muscle tissue of the animal, characterized in that the punch cocking mechanism is made in the form of an eccentric mounted on the opposite end of the rod and interacting with the case of the thickness gauge, while the core of the punch is spring-loaded from the side of the housing opposite to the eccentric, and the mechanism for fixing the depth of insertion of the probe is made in the form of a comb rigidly connected with an emphasis on a ram of the end of the probe with the cocked position of the punch, the grooves of which interact with the descent lever, placed in the cuts of the body wall, and on the comb there is a reference scale for the depth of insertion of the probe into the animal’s body, for which the reference pointer and guides for moving the comb are made on the comb, and the signal device made in the form of a light source located on the body of the thickness gauge. 2. The thickness gauge according to claim 1, characterized in that the eccentric is installed in the groove of the plug, made at the end of the core of the punch with an emphasis in the jumper of the housing, placed in the groove of the plug. 3. The thickness gauge according to claim 1, characterized in that a transverse radial recess is made on the punch rod, in which a trigger lever is placed that interacts with the grooves of the comb when fixing the depth of insertion of the probe into the body of the animal. 4. The thickness gauge according to claim 1, characterized in that a transverse groove is made on the punch rod with which the trigger lever interacts when the punch is cocked and lowered. 5. The thickness gauge according to claim 3 or 4, characterized in that the trigger lever is made in the form of a rocker arm, one end of which is spring-loaded relative to the housing, and the other interacts with the grooves of the comb and the core of the punch. 6. The thickness gauge according to claim 1, characterized in that the housing consists of a box and a lid interconnected on one side by hinges, and on the other side along the edges of the lid and the box there are grooved guides in the form of grooves for moving the comb. 7. The thickness gauge according to claim 1, characterized in that the comb is connected to the housing by a spring returning the stop to its original position. 8. The thickness gauge according to claim 1, characterized in that the electronic circuit breaker kinematically interacts with the descent lever of the skin punch.

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